Genomic signatures associated with recurrent scale loss in cyprinid fish.

IF 3.5 1区 生物学 Q1 ZOOLOGY
Yongli Ding, Ming Zou, Baocheng Guo
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引用次数: 0

Abstract

Scale morphology represents a fundamental feature of fish and a key evolutionary trait underlying fish diversification. Despite frequent and recurrent scale loss throughout fish diversification, comprehensive genome-wide analyses of the genomic signatures associated with scale loss in divergent fish lineages remain scarce. In the current study, we investigated genome-wide signatures, specifically convergent protein-coding gene loss, amino acid substitutions, and cis-regulatory sequence changes, associated with recurrent scale loss in two divergent Cypriniformes lineages based on large-scale genomic, transcriptomic, and epigenetic data. Results demonstrated convergent changes in many genes related to scale formation in divergent scaleless fish lineages, including loss of P/Q-rich scpp genes (e.g. scpp6 and scpp7), accelerated evolution of non-coding elements adjacent to the fgf and fgfr genes, and convergent amino acid changes in genes (e.g. snap29) under relaxed selection. Collectively, these findings highlight the existence of a shared genetic architecture underlying recurrent scale loss in divergent fish lineages, suggesting that evolutionary outcomes may be genetically repeatable and predictable in the convergence of scale loss in fish.

与鲤科鱼类复发性鳞片脱落有关的基因组特征
鳞片形态是鱼类的基本特征,也是鱼类多样化的关键进化特征。尽管在鱼类的多样化过程中鳞片丢失频繁发生,但对不同鱼类种系中与鳞片丢失相关的基因组特征的全基因组综合分析仍然很少。在本研究中,我们基于大规模的基因组、转录组和表观遗传学数据,研究了与两个不同鲤形目鱼类品系中反复出现的鳞片脱落相关的全基因组特征,特别是趋同的蛋白编码基因缺失、氨基酸置换和顺式调控序列变化。研究结果表明,在无鳞鱼类的不同品系中,许多与鳞片形成相关的基因发生了趋同性变化,包括富含 P/Q 的 scpp 基因(如 scpp6 和 scpp7)的缺失、与 fgf 和 fgfr 基因相邻的非编码元件的加速进化,以及在宽松选择条件下基因(如 snap29)中氨基酸的趋同性变化。总之,这些发现凸显了在不同鱼类种系中存在着一种共同的遗传结构,这种结构是鱼类鳞片脱落反复发生的基础,表明在鱼类鳞片脱落的趋同过程中,进化结果在遗传学上是可重复和可预测的。
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来源期刊
CiteScore
6.40
自引率
12.10%
发文量
81
审稿时长
>12 weeks
期刊介绍: The official journal of the International Society of Zoological Sciences focuses on zoology as an integrative discipline encompassing all aspects of animal life. It presents a broader perspective of many levels of zoological inquiry, both spatial and temporal, and encourages cooperation between zoology and other disciplines including, but not limited to, physics, computer science, social science, ethics, teaching, paleontology, molecular biology, physiology, behavior, ecology and the built environment. It also looks at the animal-human interaction through exploring animal-plant interactions, microbe/pathogen effects and global changes on the environment and human society. Integrative topics of greatest interest to INZ include: (1) Animals & climate change (2) Animals & pollution (3) Animals & infectious diseases (4) Animals & biological invasions (5) Animal-plant interactions (6) Zoogeography & paleontology (7) Neurons, genes & behavior (8) Molecular ecology & evolution (9) Physiological adaptations
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